A vessel contains a non-linear triatomic. If 50% of gas dissociate into individual atom, then find new value of degree of freedom by ignoring the vibrational mode and any further dissociation.

The degrees of freedom of a molecul of a non-linear triatomic gas is (ignore vibraional motion)

A sample contains N moles of a diatomic gas at temperature T. Molecules of gas get dissociated into atoms temperature remaining constant, find change in internal energy of gas

A masslesss piston divides a closed thermallyy insulated cylinder into two equal parts. One part contains M = 28 g of nitrogen. At this temperature, one-third of molecules are dissociated into atoms and the other part is evacuated. The piston is released and the gas fills the whole volume of the cylinder at temperature T_(0) . Then, the piston is slowly displaced back to its initial position. calculate the increases in internal energy of the gas. Neglect further dissociation of molecules during, the motion of the piston.

For an ideal diatomic gas, during any process T = KV , find out the molar heat capacity of the gas during process (neglecting vibrational degree of freedom)

A vessel of volume 5 litres contains 1.4 g of N_2 and 0.4 g of He at 1500 K . If 30 % of the nitrogen molecules are dissociated into atoms then find the gas pressure.

The mole fraction of solute in some solution is 1//n . If 50% of the solute molecules dissociates into two parts and remaining 50% get dimerized now mole fractions of solvent become 4/5 . Find value of n .

The root mean square speed fo molecules of nitrogen gas is v at a certain temperature. When the temperature is doubled, the molecules dissociate into individual atoms. The new rms speed of the atom is:

For an ideal monoatomic gas during any process T=kV, find out the molar heat capacity of the gas during the process. (Assume vibrational degree of freedom to be active)

Three moles of an diatomic gas are in a closed rigid container at temperature T (in K). 1 mole of diatomic gas gets dissociated into atoms without appreciable change in temperature. Now heat is supplied to the gas and temperature becomes 2T. If the heat supplied to the gas is x(RT), find the value of x.

The RMS velocity of nitrogen gas molecules is 'V cm/sec at a certain temperature. When the temperature is doubled, the molecules dissociated into individual atoms. Now the RMS velocity of nitrogen atoms is x V cm/sec. What is the value of 'x'?